Mikkelsen R B, Tanabe K, Wallach D F
J Cell Biol. 1982 Jun;93(3):685-9. doi: 10.1083/jcb.93.3.685.
The membrane potential (Em) of normal and Plasmodium chabaudi-infected rat erythrocytes was determined from the transmembrane distributions of the lipophilic anion, thiocyanate (SCN), and cation, triphenylmethylphosphonium (TPMP). The SCN- and TPMP-measured Em of normal erythrocytes are -6.5 +/- 3 mV and -10 +/- 4 mV, respectively. The TPMP-measured Em of infected cells depended on parasite developmental stage; "late" stages (schizonts and gametocytes) were characterized by a Em = -35 mV "early stages (ring and copurifying noninfected) by a low Em (-16 mV). The SCN-determined Em of infected cells was -7 mV regardless of parasite stage. Studies with different metabolic inhibitors including antimycin A, a proton ionophore (carbonylcyanide m-chlorophenylhydrazone [CCCP] ), and a H+ -ATPase inhibitor (N,N'-dicyclohexylcarbodiimide, [DCCD] ) indicate that SCN monitors the Em across the erythrocyte membrane of infected and normal cells whereas TPMP accumulation reflects the Em across the plasma membranes of both erythrocyte and parasite. These inhibitor studies also implicated proton fluxes in Em-generation of parasitized cells. Experiments with weak acids and bases to measure intracellular pH further support this proposal. Methylamine distribution and direct pH measurement after saponin lysis of erythrocyte membranes demonstrated an acidic pH for the erythrocyte matrix of infected cells. The transmembrane distributions of weak acids (acetate and 5,5-dimethyloxazolidine-2,4-dione) indicated a DCCD-sensitive alkaline compartment. The combined results suggest that the intraerythrocyte parasite Em and delta pH are in part the consequence of an electrogenic proton pump localized to the parasite plasma membrane.
通过亲脂性阴离子硫氰酸盐(SCN)和阳离子三苯基甲基鏻(TPMP)的跨膜分布,测定正常及感染查巴迪疟原虫的大鼠红细胞的膜电位(Em)。正常红细胞经SCN和TPMP测定的Em分别为-6.5±3mV和-10±4mV。感染细胞经TPMP测定的Em取决于寄生虫发育阶段;“晚期”阶段(裂殖体和配子体)的特征是Em = -35mV,“早期”阶段(环状体和共纯化的未感染细胞)的Em较低(-16mV)。无论寄生虫处于何阶段,感染细胞经SCN测定的Em均为-7mV。使用不同代谢抑制剂进行的研究,包括抗霉素A、质子离子载体羰基氰化物间氯苯腙(CCCP)和H⁺-ATP酶抑制剂N,N'-二环己基碳二亚胺(DCCD),表明SCN监测感染和正常细胞红细胞膜两侧的Em,而TPMP的积累反映红细胞和寄生虫质膜两侧的Em。这些抑制剂研究还表明质子通量参与了被寄生细胞Em的产生。用弱酸和弱碱测量细胞内pH的实验进一步支持了这一观点。红细胞膜经皂素裂解后,甲胺分布和直接pH测量表明感染细胞的红细胞基质呈酸性pH。弱酸(乙酸和5,5-二甲基恶唑烷-2,4-二酮)的跨膜分布表明存在一个对DCCD敏感的碱性区室。综合结果表明,红细胞内寄生虫的Em和ΔpH部分是位于寄生虫质膜上的生电质子泵作用的结果。